Carbon nanotubes – gold nanoparticles modified dual screen-printed carbon electrode

110CNT-GNP

Description

Screen-printed electrodes (SPEs) are electrochemical platforms manufactured by printing a wide variety of inks over different substrates allowing rapid on-site analysis with high reproducibility, sensitivity and accuracy.

Features

Number of WEs: 1 WE
Working electrode material: Streptavidin - Gold nanoparticles/carbon
Auxiliary electrode material: Cabron
Reference electrode material: Silver
Contacts material: Silver
Substrate material: Ceramic
Substrate size: Length: 3.38 cm x Width: 1.02 cm
Substrate thickness: 0.05 cm
Main features:

Single to use sensors that eliminate the electrode maintenance. Specially designed to work with microvolumes, this inexpensive miniaturized solution presents high reproducibility making them ideal for working in decentralized assays or to develop (bio)sensors in environmental, clinical or agri-food areas. The different modifications applied to the working electrode provide an enhanced active area and improve the electron-transfer properties.

Possible applications:

Development of (bio)sensing applications where stable high affinity surface for a large amount of biotinylated molecules is required. Suitable for detecting two signals simultaneously allowing differential measurements of two analytes in the solution. Also,this electrochemical platform is useful for developing other (bio)sensing applications in multiple sectors and fields.

Packaging: 50 units per pack. Individually packaged. Requires of isulating kit for shipment
Storage: At 2- 8 ยบ C protected from light.
Suitable connectors: BICAST, I-BICAST, BICASTDIR, BICAC, C, BIDSC, BIDSC4MM
Customization options:

The design, geometry, substrate material, size, inks or modification of this reference can be customized under your specifications and produced in large quantities upon request. This modification can also be applied to 4WE and 8WE format SPEs. For more information please contact us at info.dropsens@metrohm.com